# Converting integer to binary in Python

In order to convert an integer to a binary, I have used this code:

``````>>> bin(6)
'0b110'
``````

and when to erase the '0b', I use this:

``````>>> bin(6)[2:]
'110'
``````

What can I do if I want to show `6` as `00000110` instead of `110`?

``````>>> '{0:08b}'.format(6)
'00000110'
``````

Just to explain the parts of the formatting string:

• `{}` places a variable into a string
• `0` takes the variable at argument position 0
• `:` adds formatting options for this variable (otherwise it would represent decimal `6`)
• `08` formats the number to eight digits zero-padded on the left
• `b` converts the number to its binary representation

If you're using a version of Python 3.6 or above, you can also use f-strings:

``````>>> f'{6:08b}'
'00000110'
``````
• The first `0` means the `0th` argument to `format`. After the colon is the formatting, the second `0` means zero fill to 8 spaces and `b` for binary Commented May 2, 2012 at 9:39
• @Aif: Also, have a look at the standard documentation docs.python.org/library/…
– pepr
Commented May 2, 2012 at 10:27
• This can be simplified with the `format()` function: `format(6, '08b')`; the function takes a value (what the `{..}` slot applies to) and a formatting specification (whatever you would put after the `:` in the formatting string). Commented Sep 11, 2013 at 17:33
• `'{0:08b}'.format(-6)` -> `'-0000110'`. what if you don't want a sign? `struct`? `-6%256`? Commented Jun 23, 2014 at 11:17
• @AK47 Yes, since Pythoon 2.6 you can write int constants in binary form with 0b or 0B prefix: 0b00000110 Commented May 11, 2017 at 23:13

Just another idea:

``````>>> bin(6)[2:].zfill(8)
'00000110'
``````

Shorter way via string interpolation (Python 3.6+):

``````>>> f'{6:08b}'
'00000110'
``````
• Note that this solution is faster than the accepted one. Which solution is more clear (or, dare I say it, Pythonic) is probably a matter of personal taste.
– Air
Commented Feb 21, 2014 at 18:04
• I'm still learning the essence of pythonicity, but this is clearly much more versatile. I was initially excited to see the accepted solution with its elegant explanation, but alarmed that the object being called on to do the methods was written as a single string with all specifications built in, eliminating the involvement of variables in such things as the desired length of the bitstring. This solves that completely, and is so intuitive (at least for Python 2) that there's no need to explain each character! Commented Mar 20, 2018 at 16:27
• Does not work for negative integer `bin(-6)[2:].zfill(8)` reads as `'0000b110'` Commented Dec 14, 2019 at 7:19

Just use the format function

``````format(6, "08b")
``````

The general form is

``````format(<the_integer>, "<0><width_of_string><format_specifier>")
``````
• Yes, I like this one, it's simple and one of the fastest :-) `1000000 loops, best of 3: 556 ns per loop` Commented Jul 12, 2017 at 8:45

A bit twiddling method...

``````>>> bin8 = lambda x : ''.join(reversed( [str((x >> i) & 1) for i in range(8)] ) )
>>> bin8(6)
'00000110'
>>> bin8(-3)
'11111101'
``````
• Nice method. But I couldn't understand what this part of your code is doing: str((x >> i) & 1) Commented Sep 24, 2016 at 10:17
• @Gregory: it shifts the bits in `x` to the right and ANDs it with `1`, effectively extracting one bit (0 or 1) at a time. Commented Feb 18, 2018 at 12:18
• Very nice! As an observation, `reversed` could be removed by using `range(7,-1,-1)`; albeit more ‘pure’, but perhaps less readable/intuitive. Commented Sep 22, 2021 at 21:38
• This is the only answer that supports negative numbers (which, since Python stores them in 2's complement, are output in 2's complement format with this method).
– Mew
Commented Feb 15, 2023 at 10:44

### `numpy.binary_repr(num, width=None)` has a magic width argument

Relevant examples from the documentation linked above:

``````>>> np.binary_repr(3, width=4)
'0011'
``````

The two’s complement is returned when the input number is negative and width is specified:

``````>>> np.binary_repr(-3, width=5)
'11101'
``````

eumiro's answer is better, however I'm just posting this for variety:

``````>>> "%08d" % int(bin(6)[2:])
00000110
``````

The best way is to specify the format.

``````format(a, 'b')
``````

returns the binary value of a in string format.

To convert a binary string back to integer, use int() function.

``````int('110', 2)
``````

returns integer value of binary string.

• Better would be format(a, '08b') to obtain the format the user wanted.
– ZSG
Commented Apr 27, 2020 at 6:20

.. or if you're not sure it should always be 8 digits, you can pass it as a parameter:

``````>>> '%0*d' % (8, int(bin(6)[2:]))
'00000110'
``````

Going Old School always works

``````def intoBinary(number):
binarynumber=""
if (number!=0):
while (number>=1):
if (number %2==0):
binarynumber=binarynumber+"0"
number=number/2
else:
binarynumber=binarynumber+"1"
number=(number-1)/2

else:
binarynumber="0"

return "".join(reversed(binarynumber))
``````
• `number=number/2` gives float, so `number=number//2` seams better, also I would replace `number=number//2` with `number//=2` and `b=b+"0"` with `b+="0"` Commented Nov 12, 2019 at 3:46
• also, you don't have the 0 padding as the OP required Commented Nov 12, 2019 at 3:48
• so if `number=7`, your function returns "111" instead of "0111", this is unexpected. Commented Nov 7, 2022 at 16:11
• true because at 7, you are still in the third bit. essentially the assumption is depending on the size to be received, the entire left side is made of zeroes Commented Nov 11, 2022 at 6:12

An even an easier way:

``````my_num = 6
print(f'{my_num:b}')
``````

You can use just:

``````"{0:b}".format(n)
``````

In my opinion this is the easiest way!

Assuming you want to parse the number of digits used to represent from a variable which is not always constant, a good way will be to use numpy.binary.

could be useful when you apply binary to power sets

``````import numpy as np
np.binary_repr(6, width=8)
``````
``````('0' * 7 + bin(6)[2:])[-8:]
``````

or

``````right_side = bin(6)[2:]
'0' * ( 8 - len( right_side )) + right_side
``````
• While this code may answer the question, providing additional context regarding how and/or why it solves the problem would improve the answer's long-term value. Commented Sep 5, 2018 at 0:31
``````def int_to_bin(num, fill):
bin_result = ''

def int_to_binary(number):
nonlocal bin_result
if number > 1:
int_to_binary(number // 2)
bin_result = bin_result + str(number % 2)

int_to_binary(num)
return bin_result.zfill(fill)
``````

Simple code with recursion:

`````` def bin(n,number=('')):
if n==0:
return(number)
else:
number=str(n%2)+number
n=n//2
return bin(n,number)
``````
– Community Bot
Commented Dec 2, 2021 at 22:51

The Python package Binary Fractions has a full implementation of binaries as well as binary fractions. You can do your operation as follows:

``````from binary_fractions import Binary
b = Binary(6) # Creates a binary fraction string
b.lfill(8) # Fills to length 8
``````

This package has many other methods for manipulating binary strings with full precision.

``````    def convertToBinary(self, n):
result=""
if n==0:
return 0

while n>0:
r=n%2
result+=str(r)
n=int(n/2)
if n%2==0:
result+="0"
return result[::-1]
``````